Prognostic implications of ΔNp73/TAp73 expression ratio in core-binding factor acute myeloid leukemia

Dear Editor, The TP73 gene is a member of the TP53 family and, due to differential promoter usage, it may be alternatively transcribed into the transcriptionally active full-length ( TAp73 ) or inactive NH2-terminal truncated ( Δ Np73 ) isoforms. While the encoded full-length TAp73 largely mimics p53 activities in experimental systems [1], the transactivation-de ﬁ cient Δ Np73 isoform exerts a dominant-negative effect on p53 and TAp73 functions [2]. Given that both isoforms can occur simultaneously in the cell, the oncogenic potential of the TP73 gene in cancer is dictated by the balance between Δ Np73 and TAp73 isoforms. In the clinical context, we have previously demonstrated that a high Δ Np73 / TAp73 expression ratio is independently associated with inferior outcomes in patients with acute promyelocytic leukemia [3]. Additionally, we have recently demonstrated that patients exhibiting overexpression of Δ Np73 can be grouped into a particular subset of acute myeloid leukemia (AML) with a molecular signature and clinical outcomes very similar to TP53 -mutant AML [4], reinforcing the prognostic relevance of the TP73 gene and its isoforms in human cancers. Now, we are interested in determining whether the Δ Np73 / TAp73 ratio has clinical implications in core-binding factor (CBF)-AML, another well-de ﬁ ned subtype of AML which, although categorized as favorable-risk AML [5], has a substantial portion of patients who die from relapsed disease after intensive chemotherapy [6]. Between


Dear Editor,
The TP73 gene is a member of the TP53 family and, due to differential promoter usage, it may be alternatively transcribed into the transcriptionally active full-length (TAp73) or inactive NH2-terminal truncated (ΔNp73) isoforms.While the encoded full-length TAp73 largely mimics p53 activities in experimental systems [1], the transactivation-deficient ΔNp73 isoform exerts a dominant-negative effect on p53 and TAp73 functions [2].Given that both isoforms can occur simultaneously in the cell, the oncogenic potential of the TP73 gene in cancer is dictated by the balance between ΔNp73 and TAp73 isoforms.In the clinical context, we have previously demonstrated that a high ΔNp73/TAp73 expression ratio is independently associated with inferior outcomes in patients with acute promyelocytic leukemia [3].Additionally, we have recently demonstrated that patients exhibiting overexpression of ΔNp73 can be grouped into a particular subset of acute myeloid leukemia (AML) with a molecular signature and clinical outcomes very similar to TP53-mutant AML [4], reinforcing the prognostic relevance of the TP73 gene and its isoforms in human cancers.Now, we are interested in determining whether the ΔNp73/ TAp73 ratio has clinical implications in core-binding factor (CBF)-AML, another well-defined subtype of AML which, although categorized as favorable-risk AML [5], has a substantial portion of patients who die from relapsed disease after intensive chemotherapy [6].
Between February 2004 and May 2022, 136 cytogenetically and/or molecularly confirmed cases of de novo CBF-AML (median age: 47 years, range: 18-79 years; 51% male) were enrolled.Details about cohort characterization can be found in the Supplemental data.The majority of the patients (114 patients, 84%) were younger than 60 years old and received intensive cytotoxic chemotherapy.Induction therapy included daunorubicin (60 or 90 mg/m 2 daily for 3 days) and cytarabine (100 or 200 mg/m 2 daily for 7 days), followed by two or three cycles of consolidation therapy with high doses cytarabine (1.5 g/m 2 or 3 g/m 2 for 3 days).None of the patients underwent autologous or allogeneic bone marrow transplantation in first remission.Complete remission was assessed by bone marrow examination 28 days after each course of chemotherapy.The remaining 22 patients aged 60 years were treated with low-dose of cytarabine in combination with etoposide, thioguanine, and idarubicin, or received palliative care.The study adhered to the tenets of the Declaration of Helsinki, and informed consents were obtained from all patients or their relatives.The study was approved by the Internal Review Board (CAAE #47769821.7.0000.5208).
The transcript levels of TP73 isoforms (ΔNp73 and TAp73) were quantified using SYBR Green Dye method (Promega) (Supplemental data).Only pretreatment bone marrow mononuclear cells were analyzed.Strategies for cohort dichotomization are described in the Supplemental data.All calculations were performed using Stata statistical data analysis software version 14.1 (StataCorp, College Station, TX, USA), statistical package for the social sciences 19.0, and R 3.3.2(The CRAN project, www.r-project.org)software.P-values were two-sided with a significance level of 0.05.Details for statistical analysis and clinical endpoints were published elsewhere [3].
Frequently classified as a favorable-risk disease [5], increasing reports have described CBF-AML as a heterogeneous condition, in which up to 40% of patients die of treatment failure [7].Some studies argue that such clinical heterogeneity is caused by secondary genetic abnormalities [7,8] which, in turn, could result in substantial differences between patients with t(8;21) and inv(16) [9].Hence, the current literature supports the need for enhanced genomic characterization in CBF-AML to identify distinct prognostic groups of patients.Other evidence suggests this difference may also be observed when comparing cohorts from different clinical contexts.For instance, we have noticed that the clinical outcomes of our patients were significantly inferior to those reported by Begna et al. [10].In their controlled study of 70 patients with CBF-AML, the authors reported a near 100% CR rate in patients uniformly treated with "7 + 3" protocols, with 61% of the patients (27 at risk) remaining alive five years post-diagnosis.The authors also showed that pre-emptive allogeneic hematopoietic stem cell transplant might reduce the risk of relapse.In agreement, Takahashi et al. [11] reported similar results when investigating regimens' response and treatment-related mortality based on alternative protocols in elderly patients with CBF-AML.Although we did not intend to compare clinical data between cohorts, our data are in sharp contrast with the both studies (in particular, CR and OS rates).However, we should consider some points of concern.First, our study was conducted within a public healthcare system in a low-and middle-income country, which means many variables cannot be fully controlled.These include delays in initiating treatment, lack of adequate infrastructure for stem cell transplantation, and drug unavailability with subsequent adaptations in treatment protocols [12].Additionally, our setting faces some challenges related to infection control, particularly regarding invasive fungal infections, which accounts for substantial morbidity during treatment [12,13].Together, the clinical heterogeneity of CBF-AML appears to be influenced not only by disease biology but also by patient demographics and healthcare infrastructure.This reinforces the importance of conducting studies in diverse economic and clinical contexts and highlights the need for treatment strategies adjusted to local conditions and patient-specific factors.
Here, we provided the first evidence that a higher ΔNp73/TAp73 ratio is associated with poor outcomes in patients with CBF-AML intensively treated with standard protocols.Although we have not explored the biological significance of ΔNp73/TAp73 ratio in CBF-AML at a functional level, our results suggest that the TP53 pathway may be indirectly compromised.It remains to be explored whether the imbalance between ΔNp73 and TAp73 isoforms may be caused by differential stability of each transcript or due to a particular mechanism that dictate which isoform will be preferentially transcribed in a tumor cell.In this context, our group recently described a new poor prognostic subgroup of TP53-wild type patients that behaves similarly to TP53-mutant AML.Patients included in this new group frequently present increased expression of ΔNp73.Using molecular profiling of 823 AML patients, we noticed that the transcriptional and metabolic program of ΔNp73-AML patients share strong similarities with TP53-mutant patients [4].This resemblance includes enrichment for stemness signatures, co-occurrence with poor prognosis mutations, and increased cell proliferation and resistance against several standard-of-care cytotoxic therapies in AML.Because TP53 is rarely mutated in de novo AML [14], these data further highlight the relevance of the ΔNp73/TAp73 ratio in refining patient risk-stratification and predicting chemotherapy response in AML, even in diseases with such a favorable prognosis, such as CBF-AML.
Fig. 1 Survival results for patients with CBF-AML according to the ΔNp73/TAp73 ratio.Probability of overall survival (A) and disease-free survival (B).Survival curves were estimated using the Kaplan-Meier method, and the log-rank test was used for comparison.